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I am probably missing something obvious (still learning about Objective-C!) but for some reason one of my NSString variables has a null value in my if statement and I don't know why?

I have even output to NSLog and I still can't see why it's behaving like this.

Basically, the user enters an amount in a text field (itemWeight) and this if statement validates the input and displays an alert according to the result. The problem only seems to be when 0.751 is entered, if you enter any other amount (0.750, 0.749, 0.752, 0.753 and so on) it works as expected.

Relevant code samples as follows...

.h file:

@property (strong, nonatomic) IBOutlet UITextField *itemWeight;

.m file:

NSString *rawWeightText = itemWeight.text;
float convertedWeightText = rawWeightText.floatValue;

NSString *weightMessage;

if (convertedWeightText <= 0.750)
{
    weightMessage = @"under 0.750";
}
else if (convertedWeightText >= 0.751)
{
    weightMessage = @"0.751 or over";
}

UIAlertView *alert = [[UIAlertView alloc]
                      initWithTitle: @"Error"
                      message: weightMessage
                      delegate: nil
                      cancelButtonTitle:@"OK"
                      otherButtonTitles:nil];
[alert show];

Any ideas where I'm going wrong/what I've forgotten to do would be much appreciated, thank you!

share|improve this question
    
What's the output for NSLog(@"%f", convertedWeightText)? And you are aware of the fact, that when I enter a value between 0.750 and 0.751 your if-elseif does not match? –  mAu Aug 11 '12 at 14:48
    
NSLog output is 0.751000 –  Sam G Aug 11 '12 at 14:52
1  
Yes, but that is rounded. NSLog(@"%.10f", convertedWeightText); gives you 0.7509999871 –  Jörn Eyrich Aug 11 '12 at 15:02

3 Answers 3

up vote 5 down vote accepted

Looking at the condition of your if-else if code does not have the range of from 0.750 to 0.751.

floating-point values ​​must be careful to compare. you should consider about 0.751 possibility 0.75099999...

the following loop, the result is 99.999046, not 100. Continue to add more accuracy is poor.

float a= 0.1f;
float result = 0.f;
for(int i = 0; i<1000; i++)
{
    result += 0.1f;
}

printf("result:%f", result); //99.999046

So, In General, Comparison of these expressions is not recommended.

if (result == expectedResult)

Writing the following method is recommended to compare.

bool AlmostEqualRelative(float A, float B, float maxRelativeError)
{
    if (A == B)
        return true;
    float relativeError = fabs((A - B) / B);
    if (relativeError <= maxRelativeError)
        return true;
    return false;
}

For more information, please read here

http://www.cygnus-software.com/papers/comparingfloats/comparingfloats.htm

also, you must read this wiki:

http://en.wikipedia.org/wiki/Floating_point

http://en.wikipedia.org/wiki/Denormal_number

share|improve this answer
    
But 0.751 is covered by convertedWeightText >= 0.751. So that shouldn't be the problem in this case. –  mAu Aug 11 '12 at 14:52
4  
0.751 cannot be accurately represented in a float (which uses a dual numbering system). it's like 1/3 in the decimal system needing an infinite amount of threes after the decimal point to represent. –  Jörn Eyrich Aug 11 '12 at 14:54
    
Thanks bitmapdata.com and everyone else for pointing me in the right direction. I thought I was going mad...! :) –  Sam G Aug 11 '12 at 15:14

Decimal values often can't be exactly represented in binary. When the user enters 0.751, its likely that the actual float that you get back is slightly smaller, like 0.750999942. Try logging the value to see what's going on.

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You are not the first programmer who is surprised by the actual behavior of floating point numbers.

In fact it is more a problem with binary decimal numbers, then the floating point details.

Try to convert 0.751, which has only 3 digits in the fractional part, into a binary number and you'll see.

To make it short, 0.751 is represented as a binary exponent of -1 and a mantissa of 1.10000000100000110001001 in a float (float only has 23+1 bits of precision for the mantissa).

That is, in decimal, an exponent of -1 and a mantissa of 1.5019999742507935.

Therefore 2^-1 * 1.5019999742507935 = 0.7509999871254 and it does not pass the test in the if.

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